Laser powder bed fusion (L-PBF) techniques have been increasingly adopted for the production of highly personalized and customized lightweight structures and bio-medical implants. L-PBF can be used with a multiplicity of materials including several grades of titanium. Due to its biocompatibility, corrosion resistance and low density-to-strength ratio, Ti–6Al–4V is one of the most widely used titanium alloys to be processed via L-PBF for the production of orthopedic implants and lightweight structures. Mechanical properties of L-PBF Ti–6Al–4V lattice structures have mostly been studied in uniaxial compression and lately, also in tension. However, in real-life applications, orthopedic implants or lightweight structures in general are subject...
Laser-based powder-bed fusion (L-PBF) is an additive manufacturing technology that is capable of fab...
The fabrication of engineered lattice structures has recently gained momentum due to the development...
Porous metal lattice structures have a very high potential in biomedical applications, setting as in...
Developments in selective laser melting (SLM) have enabled the fabrication of periodic cellular latt...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Cellular structures with highly controlled micro-architectures are promising materials for orthopedi...
Published ArticleTopology optimization approach was used for the design of Ti6Al4V ELI lattice struc...
The metal additive manufacturing industry is rising and so is the interest in new lattice structures...
Additive manufacturing technologies in general and laser powder bed fusion (L-PBF) in particular hav...
Lattice structure topology is a rapidly growing area of research facilitated by developments in addi...
Titanium lattice structures have found a wide range of lightweight applications. However, lattice st...
A porous lattice structure with highly controllable mechanical properties, low weight, and high stre...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
The present work correlates the quasi-static, tensile mechanical properties of additively manufactur...
This paper reports on the production and mechanical properties of Ti6Al4V microlattice structures wi...
Laser-based powder-bed fusion (L-PBF) is an additive manufacturing technology that is capable of fab...
The fabrication of engineered lattice structures has recently gained momentum due to the development...
Porous metal lattice structures have a very high potential in biomedical applications, setting as in...
Developments in selective laser melting (SLM) have enabled the fabrication of periodic cellular latt...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Cellular structures with highly controlled micro-architectures are promising materials for orthopedi...
Published ArticleTopology optimization approach was used for the design of Ti6Al4V ELI lattice struc...
The metal additive manufacturing industry is rising and so is the interest in new lattice structures...
Additive manufacturing technologies in general and laser powder bed fusion (L-PBF) in particular hav...
Lattice structure topology is a rapidly growing area of research facilitated by developments in addi...
Titanium lattice structures have found a wide range of lightweight applications. However, lattice st...
A porous lattice structure with highly controllable mechanical properties, low weight, and high stre...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
The present work correlates the quasi-static, tensile mechanical properties of additively manufactur...
This paper reports on the production and mechanical properties of Ti6Al4V microlattice structures wi...
Laser-based powder-bed fusion (L-PBF) is an additive manufacturing technology that is capable of fab...
The fabrication of engineered lattice structures has recently gained momentum due to the development...
Porous metal lattice structures have a very high potential in biomedical applications, setting as in...